大鼠去表皮心脏小梁中并发ATP酶活性的起源
Origin of concurrent ATPase activities in skinned cardiac trabeculae from rat.
作者信息
Ebus J P, Stienen G J
机构信息
Department of Physiology, Free University, Amsterdam, The Netherlands.
出版信息
J Physiol. 1996 May 1;492 ( Pt 3)(Pt 3):675-87. doi: 10.1113/jphysiol.1996.sp021337.
Abstract
- To determine the rate of ATP turnover by the sarcoplasmic reticulum (SR) Ca2+ pump in cardiac muscle, and to assess the contributions of other ATPase activities to the overall ATP turnover rate, ATPase activity and isometric force production were studied in saponin-skinned trabeculae from rat. ATP hydrolysis was enzymatically coupled to the oxidation of NADH; the concentration of NADH was monitored photometrically. All measurements were performed at 20 +/- 1 degrees C and pH 7.0. Resting sarcomere length was adjusted to 2.1 microns. All solutions contained 5 mM caffeine to ensure continuous release of Ca2+ from the SR. 2. The Ca(2+)-independent ATPase activity, determined in relaxing solution (pCa 9), amounted to 130 +/- 13 microM s-1 (mean +/- S.E.M., n = 7) at the beginning of an experiment. During subsequent measurements in relaxing solution, a decrease in ATPase activity was observed, indicative of loss of membrane-bound ATPase activity. The steady-state Ca(2+)-independent (basal) ATPase activity was 83 +/- 5 microM s-1 (n = 66). 3. Treatment of saponin-skinned preparations with Triton X-100 abolished 50 microM s-1 (60%) of the basal ATPase activity. Addition of ouabain (1 mM) suppressed 14 +/- 5% of the basal activity, whereas 8 +/- 3% was suppressed by 20 microM cyclopiazonic acid (CPA). It is argued that 31 microM s-1 of the basal ATPase activity may be associated with MgATPase from the transverse tubular system. 4. The maximal Ca(2+)-activated ATPase activity, i.e. the total ATPase activity (determined in activating solution, pCa 4.3) corrected for basal ATPase activity, was found to be 409 +/- 15 microM s-1 (n = 66). Experiments with CPA indicated that at least 9 +/- 6% of the maximal Ca(2+)-activated ATPase activity originates from the sarcoplasmic Ca2+ pump. These experiments indicate that the rate of ATP consumption by the SR Ca2+ transporting ATPase amounts to at least 37 microM s-1. 5. Treatment of preparations with Triton X-100 abolished 15 +/- 3% of the maximal Ca(2+)-activated ATPase activity, indicating that 15 +/- 3% of the maximal Ca(2+)-activated ATPase activity is membrane bound. 6. Variation of free [Ca2+] indicated that apart from the actomyosin ATPase activity a second Ca(2+)-dependent ATPase activity contributed to the overall ATP turnover rate. This activity was half-maximal at pCa 6.21, and probably reflects the SR Ca2+ transporting ATPase. It constituted 18 +/- 3% of the Ca(2+)-dependent ATPase activity, yielding an upper limit for the SR Ca2+ transporting ATPase activity of 74 microM s-1.
摘要
- 为了测定心肌肌浆网(SR)钙泵的ATP周转速率,并评估其他ATP酶活性对总ATP周转速率的贡献,对大鼠皂素透皮小梁中的ATP酶活性和等长力产生进行了研究。ATP水解通过酶促反应与NADH的氧化偶联;通过光度法监测NADH的浓度。所有测量均在20±1℃和pH 7.0条件下进行。静息肌节长度调整为2.1微米。所有溶液均含有5 mM咖啡因,以确保Ca2+从SR中持续释放。2. 在松弛溶液(pCa 9)中测定的与Ca2+无关的ATP酶活性,在实验开始时为130±13微摩尔/秒(平均值±标准误,n = 7)。在随后于松弛溶液中的测量过程中,观察到ATP酶活性降低,表明膜结合ATP酶活性丧失。稳态与Ca2+无关(基础)的ATP酶活性为83±5微摩尔/秒(n = 66)。3. 用Triton X-100处理皂素透皮制剂可消除50微摩尔/秒(60%)的基础ATP酶活性。加入哇巴因(1 mM)可抑制基础活性的14±5%,而20微摩尔环匹阿尼酸(CPA)可抑制8±3%。据认为,基础ATP酶活性的31微摩尔/秒可能与横管系统的MgATP酶有关。4. 最大Ca2+激活的ATP酶活性,即校正基础ATP酶活性后的总ATP酶活性(在激活溶液中,pCa 4.3下测定),为409±15微摩尔/秒(n = 66)。CPA实验表明,最大Ca2+激活的ATP酶活性中至少9±6%源自肌浆网钙泵。这些实验表明,SR钙转运ATP酶的ATP消耗速率至少为37微摩尔/秒。5. 用Triton X-100处理制剂可消除最大Ca2+激活的ATP酶活性的15±3%,表明最大Ca2+激活的ATP酶活性的15±3%是膜结合的。6. 游离[Ca2+]的变化表明,除了肌动球蛋白ATP酶活性外,第二种Ca2+依赖性ATP酶活性对总ATP周转速率有贡献。该活性在pCa 6.21时达到半最大,可能反映了SR钙转运ATP酶。它占Ca2+依赖性ATP酶活性的18±3%,使SR钙转运ATP酶活性的上限为74微摩尔/秒。
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